DE202011000089U1 - Evaporation chamber and edge sealing structure thereof - Google Patents

Abstract

Evaporation chamber comprising:
a first cover whose peripheral edge is angled to form a first angled edge;
a second cover covering the first cover and having its peripheral edge angled to form a second angled edge, the second angled edge overlying the first angled edge and the first angled edge angled to cover the second angled edge;
a wick-like structure formed on the inside of the first cover and the second cover; and
a working fluid filled between the first cover and the second cover.

Description

Background of the invention

Field of the invention

The present invention relates to an evaporation chamber, and more particularly relates to an edge sealing structure of an evaporation chamber.

Description of the Prior Art

The conventional evaporation chamber has a hollow plate, a wick-like seal formation provided in the hollow plate, and a sealed tube in communication with the inside of the hollow plate. The hollow plate consists of two separate lids. The circumference of each of the two covers is provided with a sealing edge. The two covers cover each other and the wick-like sealing structure is provided on inner walls of the two lids. Then, the sealing edges are sealed by means of a sealing process. A pipe is inserted into a filling opening formed between the two cover plates. Through the filling opening, a working fluid is introduced into the evaporation chamber and air is sucked from the interior of the evaporation chamber to the outside.

Conventionally, the sealing edges are aligned with each other on the peripheral surfaces of the two lids, and then a connecting portion between the two lids is brazed together to thereby seal the edges of the evaporation chamber. In addition, the working fluid is filled in the vacuum chamber. The working fluid circulates in the vaporization chamber to transfer heat due to its phase change. Because the interior of the vaporization chamber is often subjected to thermal expansion and contraction, the tightness of the sealing edges of the vaporization chamber becomes very critical. In order to improve the tightness of the vaporization chamber, the soldering process must be carried out more accurately, which inevitably increases the labor hours and the cost of producing the vaporization chamber.

In view of the foregoing, the inventor proposes a novel and rational arrangement based on his experience and developments.

Summary of the invention

The present invention is intended to provide a vaporization chamber in which the tightness of its sealing edges is improved. In another aspect, the present invention is intended to provide a vaporization chamber wherein the production yield is improved and the manufacturing cost is reduced.

This object is achieved by an evaporation chamber according to claim 1. Further advantageous embodiments are the subject of the dependent claims.

The present invention provides an evaporation chamber comprising a first cover plate, a second cover plate, a wick formation, and a working fluid. The periphery of the first cover plate is angled to form a first angled edge. The second cover plate is covered by the first cover plate. The periphery of the second cover plate is angled to form a second angled edge. The second angled edge and the first angled edge are superimposed with the first angled edge angled to cover the second angled edge. The wick formation is arranged on the inside of the first and the second cover plate. The working fluid is filled between the first and second cover plates.

The present invention is intended to provide an edge sealing structure of an evaporation chamber, so that the tightness of the evaporation chamber can be improved.

The present invention provides an edge sealing structure of an evaporation chamber having a first cover plate and a second cover plate. The periphery of the first cover plate is angled to form a first angled edge. The second cover plate is covered by the first cover plate. The periphery of the second cover plate is angled to form a second angled edge. The second angled edge and the first angled edge are superimposed with the first angled edge angled to cover the second angled edge.

Compared with the prior art, the present invention has the following advantageous properties. In the evaporation chamber according to the present invention, the length of the first angled edge of the first cover plate is greater than the length of the second angled edge of the second cover plate. When the second cover plate is covered by the first cover plate, the first angled edge is angled to cover over the second angled edge. Then, a plunger is used to press the first angled edge and the second angled edge against each other so that the first angled edge and the second Angled edge can be tightly connected together. Because the connecting portion between the first and second cover plates has excellent tightness, it is possible to prevent the air or a fluid received in the vacuum chamber from escaping outwardly through the connecting portion between the first angled edge and the second angled edge. Thus, it is not necessary to perform a soldering process very accurately. The production yield according to the invention is higher, although the production costs are lower. Therefore, the present invention is practical and cost effective.

Brief description of the drawings

1 is an exploded perspective view showing the evaporation chamber according to the invention.

2 Fig. 12 is an assembled perspective view showing the vaporization chamber of the present invention;

3 Fig. 10 is an assembled sectional view showing the vaporization chamber of the present invention;

4 is an enlarged view showing section A in FIG 3 shows;

5A Fig. 10 is a schematic view (I) showing the edge sealing structure of the evaporation chamber according to the invention;

5B Fig. 11 is a schematic view (II) showing the edge sealing structure of the evaporation chamber according to the invention;

5C Fig. 10 is a schematic view (III) showing the edge sealing structure of the evaporation chamber according to the present invention;

6 is a perspective view showing the appearance of the chamber according to the invention;

7 is a sectional view taken along the line 7-7 in the 6 ;

8th Fig. 10 is a schematic view showing a method of sealing edges of an evaporation chamber according to a second embodiment of the present invention; and

9 Fig. 12 is a schematic diagram showing a method of sealing edges of an evaporation chamber according to a third embodiment of the present invention.

Detailed description of the invention

The detailed description and technical contents according to the present invention will become apparent from the following detailed description and the accompanying drawings. It should be understood that the drawings are provided for illustration only, but are not intended to limit the scope of the present invention.

It is referred to the 1 to 3 , The 1 is an exploded perspective view showing the evaporation chamber according to the invention. 2 is an assembled perspective view showing the evaporation chamber according to the invention. 3 is a sectional view in the assembled state, showing the evaporation chamber according to the invention. The present invention provides an evaporation chamber 1 with a first cover plate 10 , a second cover plate 20 , a bearing or support structure 30 , a wick-like sealing structure 40 and a working fluid 50 ready.

The circumference of the first cover plate 10 is angled to a first angled edge 11 train. The circumference of the second cover plate 20 is angled to a second angled edge 21 train. The length of the first angled edge 11 is greater than that of the second angled edge 21 , The second cover plate 20 has a sealed tube 22 on. In the present embodiment, both the first cover plate 10 as well as the second cover plate 20 a square plate, but this is not meant to be limiting. In practice, the first cover plate 10 and the second cover plate 20 be formed with other suitable shapes, for example as a circular plate.

The support structure 30 and the wicked structure 40 are between the first cover 10 and the second cover 20 intended. The wicked structure 40 is on the inside of the first cover 10 and the second cover 20 arranged. The support structure 30 is designed to the wicked structure 40 support, so that this on the inner wall of the first cover 10 and the second cover 20 immediately applied. In the present embodiment, the support structure is 30 formed in a plate on which a plurality of projections 31 and through holes 32 are provided. The through holes 32 are between the protrusions 31 educated. A section of the projections 31 protrudes from one surface of the plate and another portion of the protrusions 31 protrudes from an opposite surface of the plate.

The second cover 20 is through the first cover 10 covered to form a hollow plate body in this way. A sealed pipe 22 is on the second cover 20 provided and in communication with the inside of the hollow plate body. At the same time lies the second angled edge 21 the second cover 20 above the first angled edge 11 the first cover 20 , A section of the first angled edge 11 is angled so that this immediately on the outside of the second angled edge 21 is applied.

It is referred to the 4 . 5A . 5B and 5C , The 4 is an enlarged view showing section A in FIG 3 shows. The 5A is a schematic representation (I), showing the edge-sealing structure of the evaporation chamber according to the invention. The 5B Fig. 10 is a schematic view (II) showing the edge sealing structure of the evaporation chamber according to the invention. The 5C is a schematic representation (III) showing the edge-sealing structure of the evaporation chamber according to the invention. The first angled edge 11 is angled so that this is the second angled edge 21 covers. A ram (not shown) is used around the first angled edge 11 pressurize, leaving the first angled edge 11 and the second angled edge 21 can be firmly connected to each other. To the tightness of a connecting portion between the first angled edge 11 and the second angled edge to become a solder material 50 in the connecting portion between the first angled edge 11 and the second angled edge 21 intended. After the solder material 50 was melted by means of a soldering process, the molten solder material 50 the first angled edge 11 fixed to the second angled edge 21 connect when this is cooled and hardened.

It is referred to the 6 and 7 , The 6 is a perspective view showing the outer shape of the evaporation chamber according to the invention. The 7 is a sectional view taken along the line 7-7 in the 6 , A working fluid 60 is over the sealed pipe 22 introduced into the hollow plate body. Then, a suction process and a pipe sealing process are carried out. In this way, the evaporation chamber according to the invention 1 fully formed.

It is referred to the 8th and 9 , The 8th Fig. 10 is a schematic view showing a method of sealing edges of an evaporation chamber according to a second embodiment of the present invention. The 9 Fig. 10 is a schematic view showing a method of sealing edges of an evaporation chamber according to a third embodiment of the present invention. The second embodiment is substantially similar to the first embodiment. The difference between the second embodiment and the first embodiment is as follows. Like in the 8th shown is one side of the second angled edge 21 with a recess 210 equipped and is the first angled edge 11 with a lead 110 formed, which corresponds to the recess 210 the second angled edge 21 is formed when the ram is used to the first angled edge 11 to shape. With the help of this arrangement, the first angled edge 11 in a tight engagement with the second angled edge 21 to be brought. As well as in the 9 2 are opposite side surfaces of the second angled edge 21 each with recesses 210 . 211 formed and are the two side surfaces of the first angled edge 11 each with projections 110 . 111 formed so that these correspond to the recesses 210 . 211 the second angled edge 11 are formed. With the help of this arrangement, the first angled edge 11 in a tight engagement with the second angled edge 21 to be brought.

Although the present invention has been described in terms of the foregoing preferred embodiments, it should be understood that the invention is not limited to the details thereof. Numerous equivalent modifications and modifications may be made by those skilled in the art in light of the technical teaching of the present invention. Thus, it is intended that all such alterations and equivalent modifications be included within the scope of the invention as defined in the appended claims.

Claims (10)

An evaporation chamber comprising: a first cover whose peripheral edge is angled to form a first angled edge; a second cover covering the first cover and having its peripheral edge angled to form a second angled edge, the second angled edge overlying the first angled edge and the first angled edge angled to cover the second angled edge; a wick-like structure formed on the inside of the first cover and the second cover; and a working fluid filled between the first cover and the second cover. An evaporation chamber according to claim 1, further comprising a support structure for supporting the wick-like structure so as to abut directly against the inner sides of the first cover and the second cover. An evaporation chamber according to claim 2, wherein the support structure is formed in a plate, wherein on the plate a plurality of projections and through holes are provided, wherein the through holes are formed between the projections, a portion of the projections projecting from one surface of the plate and the other portion the protrusions project from the opposite surface of the plate. The vaporization chamber of claim 1, further comprising a brazing material provided in a connecting portion between the first angled edge and the second angled edge. The vaporizing chamber of claim 1, wherein a side surface of the second angled edge is recessed, the first angled edge is provided with a projection formed corresponding to the recess of the second angled edge so that the first angled edge is in a solid Engaged with the second angled edge. An evaporation chamber according to claim 1, wherein two opposite side surfaces of the second angled edge are each provided with a recess, two opposite side surfaces of the angled edge are each provided with a projection formed corresponding to the recess of the second angled edge, so that the first angled edge is in firm engagement with the second angled edge. Edge sealing structure of an evaporation chamber, comprising: a first cover whose peripheral edge is angled to form a first angled edge; and a second cover covering the first cover and having its peripheral edge angled to form a second angled edge, the second angled edge overlying the first angled edge and the first angled edge angled to cover the second angled edge. An edge seal assembly of an evaporation chamber according to claim 7, further comprising a solder material, which is provided in a connecting portion between the first angled edge and the second angled edge. An edge sealing structure of an evaporation chamber according to claim 7, wherein a side surface of the second angled edge is provided with a recess, the first angled edge is provided with a projection which is formed corresponding to the recess of the second angled edge, so that the first angled edge is in firm engagement with the second angled edge. An edge sealing structure of an evaporation chamber according to claim 7, wherein two opposite side surfaces of the second angled edge are each provided with a recess, two opposite side surfaces of the first angled edge are each provided with a projection which is formed corresponding to the recesses of the second angled edge is such that the first angled edge is in a fixed engagement with the second angled edge.

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